Day-5. Announcements 1 st Quarter Observing Night Next Thursday – Oct. 10 Start time will be 7:30pm Start set-up at ~6:30pm in Atrium.

Slides:

Advertisements

Similar presentations

Understanding the Stars

Advertisements

Universe Eighth Edition Universe Roger A. Freedman William J. Kaufmann III CHAPTER 5 The Nature of Light CHAPTER 5 The Nature of Light.

Blackbody Radiation. Blackbody = something that absorbs all electromagnetic radiation incident on it. A blackbody does not necessarily look black. Its.

Classification of Stellar Spectra Late 1800s: first high-quality spectral measurements of stars What are the main features – and how to classify them?

Stars Flux and Luminosity Brightness of stars and the magnitude scale Absolute magnitude and luminosity Distance modulus Temperature vs heat Temperature.

PHYS216 Practical Astrophysics Lecture 4 – Photometry 1 Module Leader: Dr Matt Darnley Course Lecturer: Dr Chris Davis.

Announcements No lab this week’s due to Tuesday’s observing night Homework: Chapter 5 # 1, 2, 5, 6, 8 & 9 Dark Sky Observing Night next week on Wednesday.

Chapter 3 Continuous Spectrum of Light 3

Stellar Continua How do we measure stellar continua? How precisely can we measure them? What are the units? What can we learn from the continuum? –Temperature.

Chapter 14 Surveying the Stars. Luminosity and Apparent Brightness.

The HR Diagram Astronomy 315 Professor Lee Carkner Lecture 8.

This Set of Slides This set of slides covers finding distance in space, parallax review and limitations, some more physics (of light), the Inverse Square.

Colors and Magnitudes PHYS390 (Astrophysics) Professor Lee Carkner Lecture 2.

ASTR100 (Spring 2008) Introduction to Astronomy Properties of Stars Prof. D.C. Richardson Sections

Atoms and Starlight Chapter 6. Color and Temperature Orion Betelgeuze Rigel Stars appear in different colors, from blue (like Rigel) via green / yellow.

Photometry. Measuring Energy Photometry measures the energy from a source using a narrow range of wavelengths. –Visual wavelengths from nm –Narrower.

Guiding Questions How far away are the stars?

Radiation PHYS390 (Astrophysics) Professor Lee Carkner Lecture 3.

Deducing Temperatures and Luminosities of Stars (and other objects…)

Properties of Stars How do we measure stellar luminosities?

Deducing Temperatures and Luminosities of Stars (and other objects…)

Color/Temperature Relation

Assigned Reading Today’s assigned reading is: –Finish Chapter 7.

Black Body Radiation Physics 113 Goderya Chapter(s): 7 Learning Outcomes:

Introduction to Astrophysics Lecture 8: Observational properties of stars.

Can the color of a glowing object tell us the temperature of the object? Hot……... Hotter…..... Hottest!

Chapter 2: Origin of Color What produces the color sensation?

Telescopes (continued). Basic Properties of Stars.

The Pleiades Lab 6. The Pleiades An open cluster is a group of up to a few thousand stars that were formed from the same giant molecular cloud, and.

Chapter 13: Taking the Measure of Stars Stars come in a wide range of temperatures, sizes, masses and colors. The constellation of Orion is a good example.

The Brightness of Stars. The Simple Answer to: How Bright? Quantifying the brightness of stars started with Hipparchus (2 nd C. BC) and his magnitude.

Radiation Kirchoff’s Laws  Light emitted by a blackbody, a hot opaque body, or hot dense gas produces a continuous spectrum  A hot transparent gas produces.

A105 Stars and Galaxies Today’s APOD News Quiz Today

M.R.Burleigh 2601/Unit 1 DEPARTMENT OF PHYSICS AND ASTRONOMY LIFECYCLES OF STARS Option 2601.

1 Stellar Astronomy Spring_2015 Day-25.

Lecture 9 Stellar Spectra

The Properties of Stars

DISTANCES Parallax is an object's apparent shift relative to some more distant background as the observer's point of view changesParallax is an object's.

Apparent Magnitude (useful for describing how bright objects appear from the Earth) The original magnitude system of Hipparchus had: magnitude 1 – the.

ASTR_4170 Special Topics: Photometry & Filter Systems Day-6.

Class 4 : Basic properties of stars

The Nature of the Stars Chapter 19. Parallax.

Brightness + Magnitude of Stars - There are approximately 5000 stars viewable with the unaided eye from the Earth’s surface - At any one position you.

PHYS 205 Analyzing Starlight PHYS 205 Apparent brightness 2 nd century BC  Hipparchus devised 6 categories of brightness. In 1856 Pogson discovered.

Goal: To understand how to find the brightness of stars and what they mean. Objectives: 1)To learn about Absolute brightness 2)To learn about the Magnitude.

Stars up to Chapter 9.3, page 194 “The stars are distant and unobtrusive, but bright and enduring as our fairest and most memorable experiences.” Henry.

THIS PRESENTAION HAS BEEN RATED BY THE CLASSIFICATION AND RATING ADMINISTRATION TG-13 TEACHERS’ GUIDANCE STRONGLY ADVISED Some Material May Be Unintelligible.

Wavelength Intensity of emitted e/m radiation 6000K 2000K 1500K 1000K VIBGYOR Wien’s Displacement Law for black body radiation peak wavelength  1 / Temp.

Chapter 3 Stars: Radiation  Nick Devereux 2006 Revised 2007.

Light is a Particle Physics 12.

ASTR 113 – 003 Spring 2006 Lecture 03 Feb. 08, 2006 Review (Ch4-5): the Foundation Galaxy (Ch 25-27) Cosmology (Ch28-39) Introduction To Modern Astronomy.

Astronomy 1010 Planetary Astronomy Fall_2015 Day-19.

CHAPTER 10: THE STARS. S&T P Why do astronomers need to know the apparent brightness and luminosity of stars? The relationship between AB and.

CSI661/ASTR530 Spring, 2011 Chap. 2 An Overview of Stellar Evolution Feb. 02, 2011 Jie Zhang Copyright ©

Chapter 2 Read Pages 7-17 Continuous Radiation from Stars.

Thermal Radiation Homework 1: Due Classtime on Tuesday, Feb. 4 Reading for today: Chapters Reading for next lecture: Chapters Topics.

Astronomy is useful because it raises us above ourselves; it is useful because it is grand. It shows us how small is man's body, how great his mind, since.

The Family of Stars.

Ohio University - Lancaster Campus slide 1 of 47 Spring PSC 100

CH2. An Overview of Stellar Evolution

Electromagnetic Spectrum

Chapter 15 Surveying the Stars

Radiation in the Atmosphere

Classification of stars

Light from Stars cont.... Motion of stars

Flux Density Spectral Energy Density.

To help understand the HR Diagram 

Part 2 Luminosity And Radius

RADIATION LAWS.

Presentation transcript:

Day-5

Announcements 1 st Quarter Observing Night Next Thursday – Oct. 10 Start time will be 7:30pm Start set-up at ~6:30pm in Atrium

Magnitude Originally devised by Hipparchus around 140 BC. Based on when stars become visible after sunset. Sunset to astronomical twilight (complete dark) is divided into six equal time periods 1 st mag…visible in first 2 nd mag…visible in second 3 rd mag…visible in third 4 th mag…visible in fourth 5 th mag…visible in fifth 6 th mag…visible in sixth

Modern definition of magnitude is based on light flux Note that this compares two stars. If a “zero point” is defined then where C is the zero point offset

Zero Points N.R. Pogson, originator of the modern magnitude definition, proposed an average of the sixth magnitude stars in certain star catalogues. Result: m Sirius = -1.6 North Polar Sequence…system of “standard stars” with known magnitudes to compare against m Vega ≡ 0.0 but problems with variability and dust leads modern values to m Vega = 0.03 Most common systems now are standard star systems

Absolute magnitude Defined as the magnitude of the object if it was located at a distance of 10 parsecs. This gives a distance (d) relationship between apparent magnitude (m) and absolute magnitude (M). Distance is measured in parsecs

Types of Magnitude  Visual Magnitude (m v )…measured over the visible spectrum  Monochromatic magnitude(m )…measured over a narrow wavelength range  Bolometric magnitude (m bol )…measured over the entire E/M spectrum  Photographic magnitude (m pg )…magnitude measured with photographic plate

Filter Systems Early 20 th Century “filter” system was photographic (m pg ) and visual (m v ) 1950’s H. L. Johnson & W. W. Morgan added an ultraviolet (m U ) and converted photographic to “blue” (m B ) for the UBV system Alan Cousins work with GaAs photomultipliers which are sensitive in red and IR adds R and I for Johnson-Cousins UBVRI system J. A. Smith et al use mostly non-overlapping filter system for SDSS…UGRIZ

Johnson-Cousins Filter System

SDSS Filter System

Comparison of UBVRI and UGRIZ

Flux Amount of light energy per unit area per unit time in a specific wavelength band Recall that

Blackbody Spectra

Two laws govern blackbody radiation Wein’s Displacement Law Where T is in Kelvin and is in meters Planck’s Law with B in Watts per square meter per Hz per steradians or Watts per square meter per meter per steradians, T in Kelvin, c in meters per second and is in meters. h is Planck’s constant and k is Boltzmann’s constant

Stellar Classification Annie Jump Cannon developed a stellar classification system based on temperature and the women of Harvard Observatory classified hundreds of thousands of stars. The project spanned several decades and was funded by a grant from the widow of Henry Draper. The resulting catalogue is the Henry Draper Catalogue

Stellar Classification Scheme